Described herein is a protective coating composition that provides erosion and corrosion resistance to a coated article (such as a chamber component) upon the article's exposure to harsh chemical environment (such as hydrogen based and/or halogen based environment) and/or upon the article's exposure to high energy plasma. Also described herein is a method of coating an article with the protective coating using electronic beam ion assisted deposition, physical vapor deposition, or plasma spray. Also described herein is a method of processing wafer, which method exhibits, on average, less than about 5 yttrium based particle defects per wafer.
Legal claims defining the scope of protection, as filed with the USPTO.
2. The coated chamber component of claim 1, wherein the protective coating has a low film stress such that a body with a 12 inch diameter coated with the protective coating has a curvature of less than 50 microns over an entirety of the body.
3. The coated chamber component of claim 1, wherein the coated chamber component comprises a lid, a lid liner, a nozzle, a substrate support assembly, a gas distribution plate, a showerhead, an electrostatic chuck, a shadow frame, a substrate holding frame, a processing kit ring, a single ring, a chamber wall, a base, a liner kit, a shield, a plasma screen, a flow equalizer, a cooling base, a chamber viewport, or a chamber liner.
4. The coated chamber component of claim 1, wherein the protective coating is chemically resistant to corrosive chemistry and is physically resistant to high energy plasma, and wherein the corrosive chemistry comprises hydrogen-based chemistry, halogen-based chemistry, or a mixture thereof.
5. The coated chamber component of claim 1, wherein the protective coating has uniform thickness with a thickness variation of 15% or less in one section of the protective coating as compared to another section.
6. The coated chamber component of claim 5, wherein the protective coating is uniform as evidence by a variation of thickness that is 5% or less in one section of the protective coating as compared to another section of the protective coating.
7. The coated chamber component of claim 1, wherein the protective coating has an adhesion strength greater than 300 mN and a breakdown voltage of greater than 1823 V per 5 micrometer coating.
8. The coated chamber component of claim 1, wherein the protective coating has a thickness of below 20 microns.
9. The coated chamber component of claim 1, wherein the protective coating has a roughness ranging from 4 micro-inches to 16 micro-inches.
10. The coated chamber component of claim 1, wherein the protective coating has a purity of 99.5 wt % or more.
11. The coated chamber component of claim 1, wherein the protective coating is conformal to the surface of the body.
12. The coated chamber component of claim 1, wherein the protective coating has no free alumina and no free yttria.
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April 10, 2020
May 30, 2023
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